Conversion of Carbon Dioxide to Methanol Using a C–H Activated Bis(imino)pyridine Molybdenum Hydroboration Catalyst

TL;DRAbstract

Using a multistep synthetic pathway, a bis(imino)pyridine (or pyridine diimine, PDI) molybdenum catalyst for the selective conversion of carbon dioxide into methanol has been developed. Starting from ((Ph2PPr)PDI)Mo(CO), I2 addition afforded [((Ph2PPr)PDI)MoI(CO)][I], which features a seven-coordinate Mo(II) center. Heating this complex to 100 °C under vacuum resulted in CO loss and the formation of [((Ph2PPr)PDI)MoI][I]. Reduction of [((Ph2PPr)PDI)MoI][I] in the presence of excess K/Hg yielded (κ(6)-P,N,N,N,C,P-(Ph2PPr)PDI)MoH following methylene group C-H activation at the α-position of one PDI imine substituent. The addition of CO2 to (κ(6)-P,N,N,N,C,P-(Ph2PPr)PDI)MoH resulted in facile insertion to generate the respective η(1)-formate complex, (κ(6)-P,N,N,N,C,P-(Ph2PPr)PDI)Mo(OCOH). When low pressures of CO2 were added to solutions of (κ(6)-P,N,N,N,C,P-(Ph2PPr)PDI)MoH containing pinacolborane, the selective formation of H3COBPin and O(BPin)2 was observed along with precatalyst rege

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